CN112777106A - Securing device for nitrogen cylinder transportation - Google Patents

Abstract

The invention relates to the technical field of nitrogen bottle transportation devices, and discloses a nitrogen bottle transportation stabilizing device which comprises a bearing disc, wherein three limiting columns are fixedly mounted at the top of the bearing disc, a placing groove is formed in the position of the circle center of the top of the bearing disc, water flow buffering mechanisms are arranged on the bearing disc and the placing groove, and each water flow buffering mechanism comprises a water pump and a water bag. According to the stabilizing device for nitrogen bottle transportation, the bottom end of the nitrogen bottle is clamped and limited in the containing groove cavity, and arc-shaped surrounding limitation is performed on two sides of the outer wall of the front side of the nitrogen bottle through four groups of horizontally adjacent two surrounding plates, so that the nitrogen bottle is in surrounding type limiting and is stabilized on the bearing plate, the efficiency of stabilizing and transporting the nitrogen bottle is improved, when the nitrogen bottle is placed in the containing groove cavity and limited at the bottom, the water body in the water bag cavity has the buffering and damping effects when the nitrogen bottle is placed in the containing groove cavity, and the problem that the bottom of the nitrogen bottle is in rigid collision when the nitrogen bottle is placed in the containing groove cavity is reduced and reduced.

Description

Securing device for nitrogen cylinder transportation

Technical Field

The invention relates to the technical field of nitrogen cylinder transportation devices, in particular to a fixing device for nitrogen cylinder transportation.

Background

Nitrogen gas cylinder, carbon dioxide bottle, oxygen cylinder, argon gas bottle all are steel bottle of steel sheet preparation, as long as do not exceed regulation pressure, can hold various noncorrosive gas. Generally black, and the font color is yellow. The nitrogen cylinder is generally required to meet the following requirements during loading and transportation, the nitrogen cylinder is forbidden to be thrown, slid, rolled and impacted in the transportation process for violent movement, and the nitrogen cylinder is transported in summer by a sun-shading facility and cooling equipment for avoiding sunshine solarization and the like.

The nitrogen cylinder transportation stabilizing device in the prior art is generally loaded in a transportation compartment at first, then carries out limiting and fastening on the nitrogen cylinder, and then intermittently separates the nitrogen cylinders. Nitrogen cylinder transportation securing device of prior art is in specific use, often there is following defect, the in-process of first pair of nitrogen cylinder spacing and fastening, buffering and protection effect to the nitrogen cylinder are relatively poor, generally adopt structure such as spring to carry out extrusion contact with the outer wall of nitrogen cylinder, the structure that leads to being annular array distribution to needs just can cushion whole nitrogen cylinder outer wall, and the efficiency of buffering and protection reduces, the spring is along with the increase of use number of times, elasticity debility's problem can appear, finally influence buffering and protection to the nitrogen cylinder, the technique that the second is current can't cool down the nitrogen cylinder and handle, the nitrogen cylinder of transporting in the carriage in summer is along with the rising of indoor temperature, the dangerous explosion can take place for the nitrogen cylinder that probably leads to the transportation. Therefore, in view of the above problems, it is desirable to provide a securing device for transporting nitrogen gas cylinders.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a stabilizing device for nitrogen cylinder transportation.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a fixing device for nitrogen bottle transportation comprises a bearing disc, wherein the bearing disc is a cylinder, three limiting columns are fixedly arranged at the top of the bearing disc and are respectively positioned at the rear side and the left side and the right side of the middle part of the top of the bearing disc, a placement groove is formed in the position of the circle center of the top of the bearing disc, eight groups of fixing plates are fixedly arranged between the limiting column at the rear side of the top of the bearing disc and the limiting columns at the left side and the right side of the middle part of the bearing disc and are arc-shaped, the eight groups of fixing plates at each side are arranged at equal intervals from top to bottom, four groups of enclosing plates are arranged on the sides, far away from the fixing plates, of the limiting columns at the left side and the right side of the middle part of the bearing disc, are distributed at equal intervals from top to bottom, each group of enclosing plates correspond to two fixing plates which are adjacent from top to bottom, each other, the enclosing plates are arc-shaped, a rotating ball A is fixedly arranged at one end, the wrapping plate is movably arranged on the front side wall surface of the limiting column through a rotating ball A, a water flow buffer mechanism is arranged on the bearing disc and the placing groove, the water flow buffer mechanism comprises a water pump and a water bag, limiting ring grooves are formed in the upper side and the lower side of the middle part in the placing groove, the limiting ring grooves are annular, the bottom of the water bag is fixedly arranged at the bottom in the cavity of the placing groove, the upper side and the lower side of the middle part of the water bag respectively extend into the annular limiting ring groove cavities, the water pump is fixedly arranged at the bottom in the cavity of the water bag, a water body is injected into the water bag cavity, the output end of the water pump is fixedly connected with a water outlet pipe, the left side and the right side of the top of the bearing disc are respectively provided with a communicating groove which is communicated with the upper limiting ring groove, the water bags B are fixedly arranged on the arc-shaped inner walls of the sixteen groups of fixing plates, the water bags B are arc-shaped, the arc-shaped inner walls of the eight groups of connecting ropes are fixedly provided with two water bags A, the two water bags A are arranged on the arc-shaped inner walls of the connecting ropes in a vertically symmetrical state, the other end of the water outlet pipe is fixedly connected to the bottommost water bag A on the right side, the water outlet pipe is communicated with the water bags A, a communicating water pipe is fixedly connected between each water bag B and the water bag A corresponding to the horizontal surface, a circulating water pipe is fixedly arranged between the two groups of water bags B corresponding to the horizontal surface of each enclosing plate, a diversion water pipe is fixedly connected between the two water bags A close to each other on the two enclosing plates adjacent to each other on the upper and lower surfaces, a connecting water pipe is fixedly connected between the water bags B on the second fixing plates from top to bottom, the connecting water pipes are arc-shaped, the other end of the water inlet pipe extends into the limiting ring groove cavity through the communicating groove, the bottom end of the water inlet pipe is fixedly connected with the water bag, and the water inlet pipe is communicated with the water bag.

Preferably, be provided with supplementary buffer in the water bag intracavity, supplementary buffer includes the buffer board, and the quantity of buffer board is two, and the buffer board is circular, and two buffer boards are movable mounting respectively in spacing annular intracavity, and the perforation that the position corresponds about all having seted up on two supplementary buffer right side walls, and the outlet pipe activity runs through the perforation on the buffer board.

Preferably, the annular bottom fixed mounting in one side that the buffer board is located spacing annular intracavity has the support column that is annular array distribution, and the support column from the top down is the round platform shape that the outer wall increases gradually.

Preferably, the bottom of the support column is fixedly provided with evenly distributed cushion pads, and the cushion pads are in an arc-shaped convex state facing the support column.

Preferably, two the equal fixed mounting in one side of buffer board near spacing annular inner wall has the side rubber pad that is the annular array and distributes, and the side rubber pad is toward the bellied state of outside arc.

Preferably, two all be provided with evenly distributed's bracing piece between the buffer board, the bottom fixed mounting of bracing piece is at the top of downside buffer board, and the dashpot has been seted up on the top of dashpot, and the activity block has permanent magnet A in the dashpot intracavity, and permanent magnet A's top fixed mounting has the buffer beam, and the buffer beam stretches out from the dashpot intracavity, and the top fixed connection of buffer beam is in the bottom of upside buffer board, and bottom fixed mounting has permanent magnet B in the dashpot intracavity, and permanent magnet B's magnetic pole is the same with permanent magnet A's magnetic pole.

Preferably, the upside buffer board bottom fixed mounting has evenly distributed's permanent magnet C, and permanent magnet C is the annular, and permanent magnet C is located the outside of buffer beam top outer wall, and the top fixed mounting of downside buffer board has evenly distributed permanent magnet D, and permanent magnet D is the annular, and permanent magnet C is located permanent magnet D's position and corresponds from top to bottom, and permanent magnet D is located the outside of bracing piece bottom outer wall, and permanent magnet C is the same with permanent magnet D magnetic pole.

Preferably, the left and right sides are adjacent two all be provided with between the bounding wall and connect the rope, one side top fixed mounting that the rolling ball A was kept away from to the bounding wall has vertical dead lever up, and the dead lever fixed mounting is passed through at the top of bounding wall to the one end of connecting the rope, and the other end of connecting the rope is binded on controlling adjacent another dead lever outer wall.

(III) advantageous effects

Compared with the prior art, the invention provides a nitrogen cylinder transportation stabilizing device, which has the following beneficial effects:

1. according to the stabilizing device for nitrogen bottle transportation, the bottom end of the nitrogen bottle is clamped and limited in the containing groove cavity, the two sides of the outer wall of the front side of the nitrogen bottle are limited in an arc-shaped surrounding mode through the four groups of horizontally adjacent two surrounding plates, the two horizontally adjacent two surrounding plates are tightly connected through the connecting rope, the nitrogen bottle is finally stably fixed on the bearing plate in a surrounding mode, the efficiency of stable transportation of the nitrogen bottle is improved, a water body is injected into the water bag cavity, when the nitrogen bottle is placed at the bottom of the containing groove cavity to be limited, the water body in the water bag cavity has the effects of buffering and damping when the nitrogen bottle is placed, the problem that the bottom of the nitrogen bottle is in rigid collision when the nitrogen bottle is placed is reduced, and the efficiency of transportation and placement of the nitrogen bottle is improved.

2. The nitrogen bottle transportation stabilizing device is characterized in that a water flow buffering mechanism is arranged, when a nitrogen bottle is transported, a working switch of a water pump is started, the water pump continuously conveys water in a water bag cavity upwards through a water outlet pipe, the conveyed water sequentially passes through a water bag A, a communicating water pipe, a water bag B, a circulating water pipe and the like from bottom to top, finally, the returned water returns to the cavity of the water bag through a water inlet pipe to form a dynamic water flow circulating system, when the water is flushed into the water bag A and the water bag B, a part of water is filled in the cavities of the water bag A and the water bag B, the volumes of the water bag A and the water bag B are increased, the water bag A and the water bag B of the filled water are in close household contact with the outer wall of the nitrogen bottle, the water bag A and the water bag B filled with the water play a role in buffering protection on the nitrogen bottle, when the transported nitrogen bottle shakes or swings on a bearing plate, the nitrogen cylinder of slope then presses water pocket A and the water pocket B that has the packing to have the water, and then the dynamic rivers of water pocket A and the intussuseption of water pocket B intussuseption have then realized having carried out flowing water buffering and protection to the nitrogen cylinder, stability when further improving the nitrogen cylinder transportation.

3. This stabilising arrangement of nitrogen cylinder transportation, through setting up rivers buffer gear, after the work is opened to the water pump, the water of continuous developments circulation has still played the effect of cooling down to the nitrogen cylinder in the transportation, through the continuous circulation of rivers, and the outer wall of water pocket A and water pocket B carries out extrusion contact with the nitrogen cylinder outer wall, makes the water of circulation carry out extra cooling to the nitrogen cylinder, reduces the temperature of the nitrogen cylinder in the transport compartment, security when increasing the nitrogen cylinder transportation.

4. This stabilising arrangement of nitrogen cylinder transportation, water pocket B on every side bounding wall and two fixed plates is the state that the level corresponds, two water pocket B that realize the bounding wall to correspond and the rivers mode between two water pocket A on the bounding wall of place are the U font, water pocket A between two adjacent bounding walls about the rethread connects through the water conservancy diversion water pipe, the S-shaped that is continuous bending is from up being followed to the mode of finally realizing every side rivers, the water that is S-shaped dynamic flow has increased the area of the contact of air, then played rivers and passed through radiating effect, then further improved and carried out the radiating effect of cooling to the nitrogen cylinder.

5. This stabilising arrangement of nitrogen cylinder transportation, through setting up supplementary buffer, the upside buffer board has played the effect of dragging and supporting nitrogen cylinder bottom, the stability of nitrogen cylinder and the water bag contact of being full of the water has been improved, nitrogen cylinder bottom is through pressing down the upside buffer board simultaneously, then the buffer board of downside repels permanent magnet D's magnetic force through permanent magnet C and the magnetic force impetus of permanent magnet B to permanent magnet A and buffer beam, the effect that the downside buffer board carries out magnetic force buffering and support to the upside buffer board has been played, then two upper and lower buffer boards have played the effect of carrying out magnetic force buffering and firm support to the nitrogen cylinder simultaneously, further improvement is to nitrogen cylinder transportation stability.

Drawings

FIG. 1 is a front cross-sectional view of the present invention;

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of FIG. 2 at C;

FIG. 4 is an enlarged view taken at D of FIG. 2 in accordance with the present invention;

FIG. 5 is an enlarged view of the invention at B in FIG. 1;

FIG. 6 is a top view of the present invention.

In the figure: 1. a carrier tray; 11. a placement groove; 12. a limiting column; 13. wrapping the plate; 14. connecting ropes; 15. rotating the ball A; 16. a fixing plate; 2. a water flow buffer mechanism; 21. a water pump; 22. a water bag; 23. a water outlet pipe; 24. a water pocket A; 25. the water pipe is communicated; 26. a circulating water pipe; 27. a water bag B; 28. a diversion water pipe; 29. connecting a water pipe; 3. a limiting ring groove; 31. a communicating groove; 4. a water inlet pipe; 5. an auxiliary buffer device; 51. a buffer plate; 52. side rubber pads; 53. a support pillar; 54. a cushion pad; 55. a support bar; 56. a permanent magnet A; 57. a permanent magnet B; 58. a buffer rod; 59. a buffer tank; 6. a permanent magnet C; 61. and a permanent magnet D.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a nitrogen cylinder transportation stabilizing device comprises a bearing disc 1, wherein the bearing disc 1 is a cylinder, three limiting columns 12 are fixedly arranged at the top of the bearing disc 1, the three limiting columns 12 are respectively positioned at the rear side and the left and right sides of the middle part of the top of the bearing disc 1, a placement groove 11 is arranged at the position of the circle center of the top of the bearing disc 1, eight groups of fixing plates 16 are fixedly arranged between the limiting columns 12 at the rear side of the top of the bearing disc 1 and the limiting columns 12 at the left and right sides of the middle part of the bearing disc 1, the fixing plates 16 are arc-shaped, the eight groups of fixing plates 16 at each side are arranged at equal intervals from top to bottom, four groups of enclosing plates 13 are arranged on one sides, far away from the fixing plates 16, of the limiting columns 12 at the left and right sides of the middle part of the bearing disc 1, the four groups of enclosing plates 13 are distributed at equal intervals from top to bottom, each group of enclosing plate 13 corresponds to two fixing plates 16 adjacent from top, the front side wall surfaces of the limiting columns 12 on the left side and the right side of the middle of the bearing disc 1 are provided with ball grooves which are mutually clamped with a rotating ball A15, the surrounding plates 13 are movably arranged on the front side wall surfaces of the limiting columns 12 through a rotating ball A15, a connecting rope 14 is arranged between two adjacent surrounding plates 13 on the left side and the right side, the top of one side, far away from the rotating ball A15, of the surrounding plate 13 is fixedly provided with a vertically upward fixing rod, one end of the connecting rope 14 is fixedly arranged on the top of the surrounding plate 13 through the fixing rod, the other end of the connecting rope 14 is bound on the outer wall of the other fixing rod which is adjacent on the left side and the right side, the bearing disc 1 and the placing groove 11 are provided with a water flow buffer mechanism 2, the water flow buffer mechanism 2 comprises a water pump 21 and a water bag 22, the upper side and the lower side of the middle in the cavity of the placing groove 11 are provided with limiting ring grooves 3, the water pump 21 is fixedly arranged at the bottom of the cavity of the water bag 22, the water pump 21 is the prior art, details are not described, an output end of the water pump 21 is fixedly connected with a water outlet pipe 23, the left side and the right side of the top of the bearing disc 1 are respectively provided with a communicating groove 31 which is communicated with the upper side limiting ring groove 3 up and down, the other end of the water outlet pipe 23 penetrates through the top end of the right side wall surface of the water bag 22, a rubber sealing ring is arranged at the position where the water outlet pipe 23 penetrates through the wall surface of the water bag 22, the other end of the water outlet pipe 23 extends out of the upper side of the bearing disc 1 through the communicating groove 31, the arc-shaped inner walls of sixteen groups of fixing plates 16 are respectively and fixedly provided with a water bag B27, the water bag B27 is arc-shaped, the arc-shaped inner walls of eight groups of connecting ropes 14 are respectively and fixedly provided with two water bags A24, the two water bags, a communicating water pipe 25 is fixedly connected between each side water sac B27 and the horizontally corresponding water sac A24, a circulating water pipe 26 is fixedly installed between two groups of water sacs B27 horizontally corresponding to each side enclosing plate 13, a diversion water pipe 28 is fixedly connected between two adjacent water sacs A24 on two enclosing plates 13 on each side, a connecting water pipe 29 is fixedly connected between the water sacs B27 on the second two fixing plates 16 from top to bottom, the connecting water pipe 29 is arc-shaped, the bottom end of the bottommost water sac A24 on the left side is fixedly connected with a water inlet pipe 4, the other end of the water inlet pipe 4 extends into the cavity of the limiting ring groove 3 through a communicating groove 31, the bottom end of the water inlet pipe 4 is fixedly connected with the water bag 22, the water inlet pipe 4 is mutually communicated with the water bag 22, an auxiliary buffer device 5 is arranged in the cavity of the water bag 22, the auxiliary buffer device 5 comprises two buffer plates 51, and the number of the, the buffer board 51 is circular, the two buffer boards 51 are respectively movably mounted in the cavity of the limit ring groove 3, the right side wall surfaces of the two auxiliary buffer devices 5 are respectively provided with a through hole corresponding to the upper position and the lower position, the water outlet pipe 23 movably penetrates through the through hole on the buffer board 51, the annular bottom of one side of the buffer board 51 in the cavity of the limit ring groove 3 is fixedly provided with support columns 53 distributed in an annular array manner, the support columns 53 are in a circular truncated cone shape with the outer wall gradually increasing from top to bottom, the bottom of the support columns 53 is fixedly provided with evenly distributed buffer pads 54, the buffer pads 54 are in an arc-shaped convex state, one sides of the two buffer boards 51 close to the inner wall of the limit ring groove 3 are fixedly provided with side rubber pads 52 distributed in an annular array manner, the side rubber pads 52 are in an outward arc-shaped convex state, evenly distributed support rods 55 are arranged between the, buffer slot 59 has been seted up on buffer bar 58's top, buffer slot 59 intracavity activity block has permanent magnet A56, permanent magnet A56's top fixed mounting has buffer bar 58, and buffer bar 58 stretches out from buffer slot 59 intracavity, the top fixed connection of buffer bar 58 is in the bottom of upside buffer plate 51, buffer slot 59 intracavity bottom fixed mounting has permanent magnet B57, permanent magnet B57's magnetic pole is the same with permanent magnet A56's magnetic pole, the bottom fixed mounting of upside buffer plate 51 has evenly distributed permanent magnet C6, permanent magnet C6 is the annular, and permanent magnet C6 is located the outside of buffer bar 58 top outer wall, the top fixed mounting of downside buffer plate 51 has evenly distributed permanent magnet D61, permanent magnet D61 is the annular, and permanent magnet C6 is located permanent magnet D61's position and corresponds from top to bottom, permanent magnet D61 is located the outside of bracing piece 55 bottom outer wall, permanent magnet C6 is the same with permanent magnet D61.

When the water bag type air conditioner is used, the bearing plate 1 is stably placed in a carriage of a transport vehicle body, the bottom end of the nitrogen bottle is placed in the cavity of the placing groove 11, the water body is filled in the cavity of the water bag 22, when the nitrogen bottle extrudes the water bag 22 under the action of gravity, the water body in the cavity of the water bag 22 is gradually extruded into the water bag A24 through the water outlet pipe 23, the water bag A24 extrudes the water body into the water bag B27 through the communicating water pipe 25, the water bag B27 is extruded into the circulating water pipe 26 on the adjacent upper side through the circulating water pipe 26, after the bottom end of the nitrogen bottle extrudes and compresses the water bag 22, the bottom end of the nitrogen bottle is in pressing contact with the top of the upper side buffer plate 51, the cushion pad 54 at the bottom end of the upper side support column 53 is in pressing contact with the annular bottom wall surface of the upper side limiting ring groove 3, the support column 53 forms left and right support for the buffer plate 51, and the water body, the water body at the bottom in the water bag 22 cavity can flow into the upper side of the water bag 22 cavity through the limiting ring groove 3, meanwhile, when the buffer plate 51 shakes in the limiting ring groove 3 cavity, the side rubber pads 52 are arranged, when the buffer plate 51 extrudes the wall surface of the water bag 22 through the side rubber pads 52, the side rubber pads 52 play a role in reducing the hard collision of the buffer plate 51 with the wall surface of the water bag 22 and protecting the water bag 22, the side rubber pads 52 play a role in buffering and reducing the shaking and vibration of the buffer plate 51, when the buffer plate 51 at the upper side is conveyed towards the lower part in the cavity of the placing groove 11 under the pressing action of the nitrogen bottle, under the normal condition, the permanent magnet B57 has a strong magnetic repulsion function on the permanent magnet A56, so that the top end of the buffer rod 58 extends out of the cavity of the buffer groove 59, the permanent magnet A56 is always positioned at one side far away from the permanent magnet B57, and, the gap distance between the upper and lower buffer plates 51 is maximum, when the buffer plates 51 are pressed by the nitrogen cylinder, the buffer rod 58 is further extended into the cavity of the buffer groove 59, and simultaneously the buffer pad 54 at the bottom end of the buffer plate 51 at the lower side is decompressed and contacted with the bottom of the cavity of the limit ring groove 3 at the lower side, the upper and lower buffer plates 51 play a role in buffering the bottom of the nitrogen cylinder and supporting the nitrogen cylinder by magnetic force, after the nitrogen cylinder is stably placed into the cavity of the placing groove 11, the two horizontally adjacent enclosing plates 13 are bound and connected one by one through the connecting rope 14, finally the nitrogen cylinder is limited at the top of the bearing plate 1 in an annular enclosing manner, so that the limiting and stabilizing effects on the nitrogen cylinder are achieved, when the nitrogen cylinder is transported, the working switch of the water pump 21 is turned on, when the water pump 21 works, the input end of the water pump 21 injects the water in the cavity of the water bag 22 into the water bag A, through constantly under the effect at water pump 21 conveying water body, finally make the water flow back to water bag 22 intracavity through inlet tube 4 again, form the dynamic circulation of a rivers, simultaneously when water pocket A24, water pocket B27 and the continuous injection water of water pocket A24 back, make water pocket B27 and water pocket A24's volume grow a bit, water pocket A24 and water pocket B27's after the grow outer wall carries out inseparable extrusion contact with the outer wall of nitrogen cylinder, make spacing nitrogen cylinder on bearing dish 1 can be more stable, the water of continuous dynamic circulation simultaneously can also carry out the effect of cooling to the nitrogen cylinder in the transportation.

The invention clamps and limits the bottom end of a nitrogen bottle in a cavity of a placing groove 11, then carries out arc-shaped surrounding and limiting on two sides of the outer wall of the front side of the nitrogen bottle through four groups of horizontally adjacent two surrounding plates 13, and then carries out fastening and connection on the horizontally adjacent two surrounding plates 13 through a connecting rope 14, finally realizes that the nitrogen bottle is in a surrounding type and is stably limited and fixed on a bearing plate 1, improves the efficiency of stably transporting the nitrogen bottle, and a water body is injected into a cavity of a water bag 22, when the nitrogen bottle is placed at the bottom of the cavity of the placing groove 11 for limiting, the water body in the cavity of the water bag 22 plays a role in buffering and damping effects when the nitrogen bottle is placed, reduces and reduces the problem that the bottom of the nitrogen bottle is in hard collision when the nitrogen bottle is placed, improves the transporting and placing efficiency of the nitrogen bottle, and by arranging a water flow buffer mechanism 2, when the nitrogen bottle is transported, a working switch, the water pump 21 continuously conveys the water in the cavity of the water bag 22 upwards through the water outlet pipe 23, the conveyed water sequentially passes through the water bag A24, the communicating water pipe 25, the water bag B27, the circulating water pipe 26 and the like from bottom to top, and finally the reflowed water returns to the cavity of the water bag 22 through the water inlet pipe 4 to form a dynamic water flow circulating system, when the water is flushed into the water bag A24 and the water bag B27, a part of water is filled in the cavities of the water bag A24 and the water bag B27, so that the volumes of the water bag A24 and the water bag B27 are increased, the water bag A24 and the water bag B27 of the filled water are in close household contact with the outer wall of the nitrogen bottle, the water bag A24 and the water bag B27 filled with the water play a role in buffering and protecting the nitrogen bottle, and when the transported nitrogen bottle shakes or swings on the bearing plate 1, the inclined nitrogen bottle filled with the water body presses the water bag A24 and the water bag B27, the dynamic water flow filled in the water bag A24 and the water bag B27 realizes the flowing water buffering and protection of the nitrogen bottle, the stability of the nitrogen bottle during transportation is further improved, by arranging the water flow buffering mechanism 2, after the water pump 21 is started to work, the water body which continuously and dynamically circulates also plays a role in cooling the nitrogen bottle during transportation, the nitrogen bottle is continuously circulated through the water flow, the outer walls of the water bag A24 and the water bag B27 are in extrusion contact with the outer wall of the nitrogen bottle, so that the circulating water body additionally cools the nitrogen bottle, the temperature of the nitrogen bottle in a transportation compartment is reduced, the safety of the nitrogen bottle during transportation is improved, each side of the enclosing plate 13 is horizontally corresponding to the water bags B27 on the two fixing plates 16, the water flow mode between the two water bags B27 corresponding to the enclosing plate 13 and the two water bags A24 on the enclosing plate 13 is U-shaped, and the water bag A24 between the two adjacent enclosing plates 13 is connected through the diversion water pipe 28, finally, the mode of water flow on each side is realized, the water body which dynamically flows in the S shape increases the contact area of air, the effect of water flow-through heat dissipation is achieved, the effect of cooling and heat dissipation of the nitrogen cylinder is further improved, by arranging the auxiliary buffer device 5, the upper buffer plate 51 achieves the effect of dragging and supporting the bottom of the nitrogen cylinder, the stability of the contact between the nitrogen cylinder and the water bag 22 full of water is improved, meanwhile, the bottom end of the nitrogen cylinder presses the upper buffer plate 51, the lower buffer plate 51 achieves the magnetic repulsion of the permanent magnet D61 through the permanent magnet C6 and the magnetic pushing effect of the permanent magnet B57 on the permanent magnet A56 and the buffer rod 58 through the lower buffer plate 51, the effects of magnetic buffering and supporting of the upper buffer plate 51 through the lower buffer plate 51 are achieved, and the effects of magnetic buffering and stable supporting of the nitrogen cylinder are achieved at the same time through the upper and lower buffer plates 51, further improving the transportation stability of the nitrogen cylinder.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a stabilising arrangement of nitrogen cylinder transportation, is the cylinder, its characterized in that including bearing dish (1), bearing dish (1): the top of the bearing plate (1) is fixedly provided with three limiting columns (12), the three limiting columns (12) are respectively positioned at the rear side and the left side and the right side of the middle of the top of the bearing plate (1), a placement groove (11) is arranged at the position of the circle center of the top of the bearing plate (1), eight groups of fixing plates (16) are fixedly arranged between the limiting columns (12) at the rear side of the top of the bearing plate (1) and the limiting columns (12) at the left side and the right side of the middle of the bearing plate (1), the fixing plates (16) are arc-shaped, the eight groups of fixing plates (16) at each side are arranged at equal intervals from top to bottom, four groups of enclosing plates (13) are arranged on one side of the limiting columns (12) at the left side and the right side of the middle of the bearing plate (1) far away from the fixing plates (16), the four groups of enclosing plates (13) are distributed at equal intervals from top to bottom, the enclosing plate (13) is arc-shaped, a rotating ball A (15) is fixedly mounted at one arc-shaped end of the enclosing plate (13), ball grooves which are mutually clamped with the rotating ball A (15) are formed in the front side wall surfaces of the limiting columns (12) on the left side and the right side of the middle part of the bearing disc (1), and the enclosing plate (13) is movably mounted on the front side wall surfaces of the limiting columns (12) through the rotating ball A (15);

the water-saving water pump is characterized in that a water flow buffer mechanism (2) is arranged on the bearing disc (1) and the placing groove (11), the water flow buffer mechanism (2) comprises a water pump (21) and a water bag (22), the upper side and the lower side of the middle part in the cavity of the placing groove (11) are provided with limit ring grooves (3), the limit ring grooves (3) are annular, the bottom of the water bag (22) is fixedly arranged at the bottom of the cavity of the placing groove (11), the upper side and the lower side of the middle part of the water bag (22) are respectively inserted into the cavity of the annular limit ring grooves (3), the water pump (21) is fixedly arranged at the bottom of the cavity of the water bag (22), a water body is injected into the cavity of the water bag (22), the output end of the water pump (21) is fixedly connected with a water outlet pipe (23), the left side and the right side of the top of, and the water outlet pipe (23) penetrates through the wall surface of the water bag (22) and is provided with a rubber sealing ring, the other end of the water outlet pipe (23) extends out of the upper part of the bearing disc (1) through a communicating groove (31), the arc-shaped inner walls of sixteen groups of fixing plates (16) are all fixedly provided with water bags B (27), the water bags B (27) are arc-shaped, the arc-shaped inner walls of eight groups of connecting ropes (14) are all fixedly provided with two water bags A (24), the two water bags A (24) are arranged on the arc-shaped inner walls of the connecting ropes (14) in a vertically symmetrical state, the other end of the water outlet pipe (23) is fixedly connected on the water bag A (24) at the bottommost part of the right side, the water outlet pipe (23) is communicated with the water bags A (24), a communicating water pipe (25) is fixedly connected between each water bag B (27) at each side and the water bag A (24) corresponding to the level, and a circulating water pipe (26) is fixedly arranged between, equal fixedly connected with water conservancy diversion water pipe (28) between two water pocket A (24) that are close to each other on every side between two adjacent enclosing plate (13) about, fixedly connected with between water pocket B (27) on two fixed plate (16) of positive second from the top down connects water pipe (29), it is the arc to connect water pipe (29), bottom fixedly connected with inlet tube (4) of left side bottommost water pocket A (24), the other end of inlet tube (4) stretches into in spacing annular (3) intracavity through intercommunication groove (31), and the bottom and water bag (22) fixed connection of inlet tube (4), inlet tube (4) and water bag (22) communicate each other.

2. A nitrogen cylinder transport stabilizer according to claim 1, characterized in that: be provided with supplementary buffer (5) in water bag (22) intracavity, supplementary buffer (5) are including buffer board (51), and the quantity of buffer board (51) is two, and buffer board (51) are circular, and two buffer board (51) movable mounting respectively are in spacing annular (3) intracavity, all set up the perforation that the position corresponds from top to bottom on two supplementary buffer (5) right side walls, and the perforation on buffer board (51) is run through in outlet pipe (23) activity.

3. A nitrogen cylinder transport stabilizer according to claim 2, characterized in that: the buffer board (51) are located one side annular bottom fixed mounting that spacing annular groove (3) intracavity has support column (53) that are the annular array and distribute, and support column (53) from the top down is the round platform shape that the outer wall crescent.

4. A nitrogen cylinder transport stabilizer according to claim 3, characterized in that: the bottom of the supporting column (53) is fixedly provided with evenly distributed cushion pads (54), and the cushion pads (54) are in an arc-shaped convex state facing towards.

5. A nitrogen cylinder transport stabilizer according to claim 2, characterized in that: two the equal fixed mounting in one side of buffer board (51) near spacing annular (3) inner wall has side rubber pad (52) that are the annular array and distribute, and side rubber pad (52) are toward the bellied state of outside arc.

6. A nitrogen cylinder transport stabilizer according to claim 2, characterized in that: two all be provided with evenly distributed's bracing piece (55) between buffer board (51), the bottom fixed mounting of bracing piece (55) is at the top of downside buffer board (51), buffer slot (59) have been seted up on the top of buffer beam (58), buffer slot (59) intracavity activity block has permanent magnet A (56), the top fixed mounting of permanent magnet A (56) has buffer beam (58), and buffer beam (58) stretches out from buffer slot (59) intracavity, the top fixed connection of buffer beam (58) is in the bottom of upside buffer board (51), buffer slot (59) intracavity bottom fixed mounting has permanent magnet B (57), the magnetic pole of permanent magnet B (57) is the same with the magnetic pole of permanent magnet A (56).

7. A nitrogen cylinder transport stabilizer according to claims 2 and 6, characterized in that: upside buffer board (51) bottom fixed mounting has evenly distributed's permanent magnet C (6), permanent magnet C (6) are the annular, and permanent magnet C (6) are located the outside of buffer beam (58) top outer wall, the top fixed mounting of downside buffer board (51) has evenly distributed permanent magnet D (61), permanent magnet D (61) are the annular, and permanent magnet C (6) are located the position of permanent magnet D (61) and correspond from top to bottom, permanent magnet D (61) are located the outside of bracing piece (55) bottom outer wall, permanent magnet C (6) are the same with permanent magnet D (61) magnetic pole.

8. A nitrogen cylinder transport stabilizer according to claim 1, characterized in that: two adjacent the left and right sides all be provided with between bounding wall (13) and connect rope (14), one side top fixed mounting that rolling ball A (15) was kept away from in bounding wall (13) has vertical dead lever up, and the one end of connecting rope (14) is passed through dead lever fixed mounting at the top of bounding wall (13), and the other end of connecting rope (14) is binded on controlling adjacent another dead lever outer wall.

Images